Fishing-hook-retention system

ABSTRACT

A system for securing items such as fishing hooks is disclosed. The system may include an elastomeric material having a slit formed therein. The elastomeric material may be compressed across the slit in order to reduce the width of the slit. A substrate with extensions may hold the elastomeric material in this compressed state. While the elastomeric material is held in the compressed state, an item such as a fishing hook may be inserted into the slit. The compression may enable the slit to securely grip the item.

RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.15/675,738 filed Aug. 12, 2017 (now U.S. Pat. No. 10,299,468), which (1)claims the benefit of co-pending U.S. Provisional Patent ApplicationSer. No. 62/374,796 filed Aug. 13, 2016 and (2) claims the benefit ofco-pending U.S. Provisional Patent Application Ser. No. 62/511,891 filedMay 26, 2017.

This application is a continuation-in-part of U.S. patent applicationSer. No. 14/547,037 filed Nov. 18, 2014, which claims the benefit ofco-pending U.S. Provisional Patent Application Ser. No. 61/962,785 filedNov. 18, 2013.

U.S. patent application Ser. No. 15/675,738, U.S. Provisional PatentApplication Ser. No. 62/374,796, U.S. Provisional Patent ApplicationSer. No. 62/511,891, U.S. patent application Ser. No. 14/547,037, andU.S. Provisional Patent Application Ser. No. 61/962,785 are each herebyincorporated by reference. U.S. patent application Ser. No. 15/084,162filed Mar. 29, 2016 (now U.S. Pat. No. 9,913,463) is also herebyincorporated by reference.

BACKGROUND Field of the Invention

This disclosure relates to fishing products and more particularly tosystems and methods for retaining and storing fishing lures, barefishing hooks, artificial fishing flies, and the like.

Background of the Invention

In the past, fishing tackle in the form of fishing lures, bare hooks,and artificial flies have often been stored in various compartments of abox. Such tackle has also been stored by inserting hooks into foamcontained within a box. Both these approaches have significantdrawbacks. For example, when multiple lures, bare hooks, or flies arestored in the same compartment, they will inevitably become entangled.Accordingly, before any lure, hook, or fly so stored may be used, itmust be disentangled from the other tackle with which it has beenstored.

While inserting hooks in foam does help to keep lures, bare hooks, orflies separate, it has other problems. For example, with use, foambecomes compacted and loses the ability to resiliently return to itsoriginal shape. Accordingly, the ability of the foam to support or holdtackle degrades with time. In view of these drawbacks in currentsystems, what is needed are new systems and method for retaining andstoring fishing tackle.

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing features of the present invention will become more fullyapparent from the following description and appended claims, taken inconjunction with the accompanying drawings. Understanding that thesedrawings depict only typical embodiments of the invention and are,therefore, not to be considered limiting of its scope, the inventionwill be described with additional specificity and detail through use ofthe accompanying drawings in which:

FIG. 1 is a perspective view of one embodiment of a fishing hookretention and storage apparatus in accordance with the present inventionwith the cover in an open position;

FIG. 2 is another perspective view of the apparatus of FIG. 1 with thecover in an open position;

FIG. 3 is a perspective view of the apparatus of FIG. 1 with the insertremoved;

FIG. 4 is a top perspective view of the insert of the apparatus of FIG.1;

FIG. 5 is a bottom perspective view of the insert of the apparatus ofFIG. 1;

FIG. 6 is a cross-sectional view of one embodiment of an insert inaccordance with the present invention, wherein the insert is in aneutral, uninstalled configuration;

FIG. 7 is a cross-sectional view of one embodiment of a base inaccordance with the present invention;

FIG. 8 is a cross-sectional view of the insert of FIG. 6 applied to thebase of FIG. 7 in accordance with the present invention, wherein thebase is holding the insert in a compressed, installed configuration;

FIG. 9 is a cross-sectional view of an alternative embodiment of a basein accordance with the present invention;

FIG. 10 is a cross-sectional view of an alternative embodiment of aninsert in accordance with the present invention;

FIG. 11 is a perspective view of an alternative embodiment of a fishinghook retention and storage apparatus in accordance with the presentinvention with the cover formed of a transparent material, the baseformed of an opaque material, and the cover in an open position;

FIG. 12 is a perspective view of the apparatus of FIG. 11 with theinserts removed;

FIG. 13 is a top perspective view of an insert of the apparatus of FIG.11, wherein the insert is in a compressed configuration;

FIG. 14 is a bottom perspective view of an insert of the apparatus ofFIG. 11, wherein the insert is in a compressed configuration;

FIG. 15 is an end view of an alternative embodiment of an insert moldedto include a continuous arc or curve in accordance with the presentinvention;

FIG. 16 is an end view of the insert of FIG. 15 deflected into a flatterconfiguration;

FIG. 17 is an end view of an alternative embodiment of an insert moldedto include a segmented arc or curve in accordance with the presentinvention;

FIG. 18 is a partial end view of an alternative embodiment of an insertmolded to include a segmented arc or curve and slits of variousgeometries in accordance with the present invention;

FIG. 19 is a partial end view of the insert of FIG. 18 deflected into aflatter configuration;

FIG. 20 is a perspective view of an insert in a flatter configurationwith continuous slits molded therein in accordance with the presentinvention;

FIG. 21 is a perspective view of an insert in a flatter configurationwith discontinuous slits molded therein in accordance with the presentinvention;

FIG. 22 is a perspective view of an insert in a flatter configurationwith slits and voids are molded therein in accordance with the presentinvention;

FIG. 23 is a perspective view of one embodiment of a stabilizer inaccordance with the present invention; and

FIG. 24 is a perspective view of an alternative embodiment of astabilizer in accordance with the present invention.

DETAILED DESCRIPTION OF SELECTED EMBODIMENTS

It will be readily understood that the components of the presentinvention, as generally described and illustrated in the drawingsherein, could be arranged and designed in a wide variety of differentconfigurations. Thus, the following more detailed description of theembodiments of the system and method of the present invention, asrepresented in the drawings, is not intended to limit the scope of theinvention, as claimed, but is merely representative of variousembodiments of the invention. The illustrated embodiments of theinvention will be best understood by reference to the drawings, whereinlike parts are designated by like numerals throughout.

Referring to FIGS. 1-5, an apparatus 10 or system 10 in accordance withthe present invention may be described in terms of longitudinal 11 a,lateral 11 b, and transverse 11 c directions extending substantiallyorthogonally with respect to one another. Accordingly, in selectedembodiments, an apparatus 10 or system 10 may comprise a box 12 having alength extending in a longitudinal direction 11 a, a width in a lateraldirection 11 b, and a thickness in a transverse direction 11 c.

In certain embodiments, a box 12 may include a base 14 and cover 16 andmay house one or more inserts 18 (e.g., house one or more inserts 18within a base 14, one or more inserts 18 within a cover 16, or somecombination thereof). Each such insert 18 may, in turn, provide one ormore locations for receiving and securing various hooks used in fishing(e.g., bare fishing hooks, hooks forming part of fishing lures, hooksforming part of artificial fishing flies, or the like). A base 14 mayform or comprise a container having an interior volume. For example, abase 14 may include a back panel 20 and various side walls 22 (e.g.,four side walls 20). The back panel 20 and side walls 22 may beconnected (e.g., monolithically formed) together to form an opencontainer. The interior length and width of the back panel 20 and theinterior height of the side walls 22 may collectively define an interiorvolume corresponding to a base 14.

A cover 16 may also form or comprise a container having an interiorvolume. For example, a cover 16 may include a front panel 24 and variousside walls 26 (e.g., four side walls 26). The front panel 24 and sidewalls 26 may be connected (e.g., monolithically formed) together to forman open container. The interior length and width of the front panel 24and the interior height of the side walls 26 may collectively define aninterior volume corresponding to a cover 16.

In selected embodiments, a cover 16 may pivotably engage a base 14. Thismay be done in any suitable manner. For example, a cover 16 may bepivotably connected to a base 14 via a barrel hinge. A cover 16 maypivot with respect to a base 14 through a range of motion. Such a rangeof motion may include a closed position at one extreme thereof and afully open position at an opposite extreme thereof.

When in the closed position, a cover 16 may cooperate with a base 14 toform an enclosure. Such an enclosure may have an overall interior volumecomprising the interior volume corresponding to a cover 16 and theinterior volume corresponding to a base 14. For example, an enclosuremay have an overall volume equal or substantially equal to the sum ofthe interior volume corresponding to a cover 16 and the interior volumecorresponding to a base 14.

A cover 16 may have an interior volume that is different from aninterior volume of a corresponding base 14. Alternatively, a cover 16may have an interior volume that is equal or substantially equal to aninterior volume of a corresponding base 14. For example, in selectedembodiments, a cover 16 may be substantially identical to (e.g.,produced from the same mold as) a base 14. In such embodiments, thereversed orientation of a cover 16 with respect to a base 14 may enableany hinging elements (e.g., barrels or tubular members of a barrelhinge) or the like of one to properly mesh and align with those of theother.

When in a closed position, a cover 16 may engage a base 14 to maintainan enclosure formed thereby securely closed. For example, in selectedembodiments, a base 14 may comprise one or more first apertures formedtherein. One or more first magnets or magnetic material may be securedwithin the one or more first apertures. A cover 16 may comprise one ormore second apertures. One or more second magnets or magnetic materialmay be secured within the one or more second apertures. Moreover, thevarious first and second apertures and corresponding magnets or magneticmaterial may be positioned such that they magnetically engage oneanother to secure the cover 16 and base 14 in a closed position.

A base 14 and cover 16 may be formed of any suitable material orcombination of materials. In selected embodiments, a base 14 and cover16 may each comprise a molded (e.g., injection molded) polymericmaterial. For example, a base 14 and cover 16 may each be molded in apolycarbonate material.

A base 14 and cover 16 may have differing transparency or opacity. Forexample, in selected embodiments, a base 14 may be opaque orsubstantially opaque while a cover 16 may be transparent orsubstantially transparent. A transparent cover 16 may enable a user toreadily see what tackle is contained within the corresponding box 12without having to first open the box 12.

A base 14 and cover 16 or portions thereof may have differing surfacefinishes. In certain embodiments, a base 14, cover 16, or selectedportions thereof may have a textured, roughened, or “sand blasted” lookor finish, while the other or other portions may have a smooth or glossyfinish. For example, the exterior surfaces of the various side walls 22,26 may have a roughened or “sand blasted” look or finish, while theexterior surfaces of the front and back panels 20, 24 may have a smoothor glossy finish.

An insert 18 in accordance with the present invention may provide aninterface between one or more fishing lures, bare hooks, flies, or thelike and some other structure. For example, an insert 18 may interfacebetween one or more fishing lures, bare hooks, artificial flies, or thelike and a box 12 in accordance with the present invention, some otherbox or container, a fishing vest, a workbench, or the like. In certainembodiments, one or more surfaces of an insert 18 may have an icon 32,trademark 32, or the like incorporated therewithin. For example, asshown in the illustrated embodiment, a top surface of an insert 18 mayhave a trademark 32 incorporated therewithin (e.g., molded therewithin).

In selected embodiments, an insert 18 may comprise multiple retentionsites 34. Each such retention site 34 may comprise a portion of theinsert 18 that is configured to engage or retain one or more pieces offishing tackle (e.g., one or more lures, bare hooks, flies, or thelike). For example, in certain embodiments, an insert 18 may be orcomprise a sheet or strip of material secured to a base 14 (e.g.,secured within a base 14) and having an array of retention sites 34distributed thereon or therewithin.

An insert 18 may comprise a sheet or strip of urethane, neoprene rubber,natural rubber, polyurethane, Buna-N rubber (i.e., nitrile butadienerubber), thermoplastic elastomer (TPE), or other elastomeric material orthe like. In selected embodiments, an insert 18 may comprise a sheet orstrip of silicone rubber. The silicone rubber may have a Shore hardnessin the range of about 30 A to about 70 A, more preferably in the rangefrom about 40 A to about 60 A, and most preferably about 50 A.

In selected embodiments, an insert 18 may mechanically engage someportion of a box 12 or other substrate. For example, a base 14 and/orcover 16 or some other substrate may include one or more extensions 36shaped to mechanically engage (e.g., extend into and/or frictionallyengage) one or more corresponding apertures 38 located on an undersideof an insert 18. Alternatively, or in addition thereto, an insert 18 maybe secured to a base 14, cover 16, or some other substrate or structureby adhering a back face of the sheet or strip to that substrate orstructure. In certain embodiments, an insert 18 may be secured within abox 12 or to some other substrate by adhering a back face of the planarsheet or strip to an interior surface of back panel 18, a generallyplanar surface of some other substrate, or the like.

For example, an adhesive layer (e.g., a layer comprising a low surfaceenergy adhesive) may directly interface between the silicone rubber andan interior surface of the back panel 18 or other substrate. In selectedembodiments, an adhesive used to secure a sheet or strip of siliconerubber to the interior surface of the back panel 18 (or to some othersubstrate or structure) may be the 300LSE adhesive marketed by 3M. Forexample, a double-sided tape comprising the 300LSE adhesive may form anadhesive layer directly interfacing between a sheet or strip of siliconerubber and an interior surface of the back panel 18. In otherembodiments, a silicone-based adhesive such as room temperaturevulcanizing (RTV) adhesive or the like may be used to secure the insert18 or inserts 18.

In certain embodiments, an insert 18 may comprise a sheet or striphaving multiple retention sites 34 in the form of slits 40 or grooves 40formed in the sheet or strip. For example, a retention site 34 maycomprise a slit 40 having a depth extending into (e.g., most of the waythrough the thickness) of a sheet or strip in a transverse direction 11c and a length extending a selected distance (e.g., the length or widthof the insert 18) in a longitudinal or lateral direction 11 a, 11 b.

In an installed configuration, the sides of a slit 40 may abut oneanother or nearly abut one another. Accordingly, when a fishing hook(e.g., a bare hook or a hook of a lure, artificial fly, or the like) ora portion thereof is inserted into the slit 40, the sides of the slit 40may be pushed apart. A resiliency in the material forming the insert 18(e.g., the material of a sheet or strip) may urge the sides of the slit40 to return to the installed configuration. This urging may be aretaining force gripping the hook and preventing it from inadvertentlyexiting the slit 40.

Referring to FIGS. 6-8, a slit 40 or groove 40 in accordance with thepresent invention may be formed in any suitable manner. For example, inselected embodiments, a slit 40 may be formed by die cutting.Alternatively, a slit 40 may be formed in a molding process.

One challenge associated with molding a slit 40 is the difficulty inmolding a slit 40 that is sufficiently narrow to achieve the desiredfunctionality (e.g., gripping of a hook or other item placed therein).There is a finite limit to how thin a slit 40 can be molded. Currentlythat limit may be between about 0.5 mm and about 2 mm. Thus, a moldedslit 40 (or even a cut slit 40 in certain applications) may provideinsufficient gripping, particularly of smaller items (e.g., smallerhooks).

To overcome this limitation, a system 10 in accordance with the presentinvention may comprise one or more inserts 18 held, after install, in acompressed configuration. For example, an insert 18 in an installedconfiguration may be held in a compressed state and be shorter in atleast one dimension than the insert 18 in a neutral, uninstalledconfiguration. The compression of an insert 18 may be in a directionthat is orthogonal to one or more slits 40 thereof. Thus, thecompression may tend to close the slits 40 (e.g., push opposing sides 42a, 42 b of the slit 40 toward one another).

For example, in selected embodiments, an insert 18 may include one ormore slits 40 extending in a longitudinal direction 11 a. Accordingly,to close the one or more slits 40, the insert 18 in an installedconfiguration may be held in a compressed state and be shorter in thelateral direction 11 b than the insert 18 in a neutral, uninstalledconfiguration.

In selected embodiments, an engagement between one or more extensions 36and one or more corresponding apertures 38 located on an underside of aninsert 18 may provide a mechanism for holding the insert 18 in acompressed, installed configuration. For example, each slit 40 of aninsert 18 may be bracketed (e.g., bracketed in the lateral direction 11b) by two apertures 38. Each aperture 38 may be shaped and sized toreceive a corresponding extension 36 forming part of a base 14, cover16, or other substrate (e.g., substantially rigid substrate). However,when an insert 18 is in a neutral, uninstalled configuration, thedistance 44 between adjacent extensions 36 may be less than the distance46 between adjacent apertures 38. Accordingly, for each aperture 38 toreceive a corresponding extension 36, at least one of the two distances44, 46 must change.

By design, an insert 18 may be formed of a material that issubstantially more compressible than the base 14, cover 16, or othersubstrate of which the extensions 36 form part. Thus, it is the distance46 between adjacent apertures 38 that may be reduced to match thedistance 44 between adjacent extensions 36. Since a slit 40 may bepositioned between adjacent apertures 38, the reduction in the distance46 between adjacent apertures 38 may consume at least some of the emptyspace between the sides 42 a, 42 b of the slit 40.

Alternatively, if the slit 40 is formed in a cutting processing or ifthere is little to no empty space between the sides 42 a, 42 b thereofwhen the corresponding insert 18 is in a neutral, uninstalledconfiguration, the reduction in the distance 46 between adjacentapertures 38 may generate a desired preload by forcing the sides 42 a,42 b against one another. Thus, a difference between the distance 44between adjacent extensions 36 and the distance 46 between adjacentapertures 38 (i.e., the distance 46 when the corresponding insert 18 isin a neutral, uninstalled configuration) may be selected to finely andpredictably control a slit 40 width, close (completely or partially) aslit 40, generate a preload within a slit 40, or the like to produce adesired gripping effect on one or more hooks placed therewithin.

An extension 36 in accordance with the present invention may have anysuitable configuration. In selected embodiments, an extension 36 maycomprise a cantilevered wall 48 or wall segment 48 extending from a backpanel 20, front panel 24, or other substrate. In certain embodiments, anextension 36 may comprise multiple walls 48. For example, an extension36 may comprise two long walls 48 a, 48 b that extend in thelongitudinal direction 11 a parallel to one another from one end of apanel 20, 24 to the other and one or more cross walls 48 c that arepositioned between the two long walls 48 a, 48 b and extend in thelateral direction 11 b to connect and reinforce the two long walls 48 a,48 b.

Referring to FIGS. 9 and 10, in selected embodiments, compressing aninsert 18 to partially or completely close one or more slits 40 mayproduce a relatively high pressure in an area 50 at the base of one ormore slits 40. Accordingly, in certain embodiments, various features maybe incorporated within a system 10 to relieve or reduce that pressure.

For example, in selected embodiments, a base 14, cover 16, or othersubstrate may include a recess 52. As an insert 18 is applied to such abase 14, cover 16, or other substrate, the recess 52 may provide a voidinto which material (i.e., material forming part of an insert 18)corresponding to or within the area 50 may deflect as it is compressed.Alternatively, or in addition thereto, one or more surfaces of an insert18 may be angled (e.g., include draft 54 of a certain number of degrees)to reduce the amount of material in the area 50 that needs to becompressed.

By controlling the relative shape of a base 14, cover 16, or othersubstrate, the relative shape of one or more extensions 36, and/or therelative shape of an insert 18, the gripping force at any depth within aslit 40 (e.g., the pressure profile 56 within a slit 40 from the mouthto the root thereof) may be finely controlled. For example, bystrategically increasing an amount (e.g., a thickness in a lateraldirection 11 b) of insert material (i.e., material forming part of aninsert 18) at a particular location along a slit 40 somewhere betweenthe mouth and root thereof, the force urging the slit 40 closed at thatparticular location may be increased. Conversely, by strategicallydecreasing an amount of insert material at a particular location along aslit 40, the force urging the slit 40 closed at that particular locationmay be decreased.

Similarly, by strategically increasing a gap (e.g., a distance 44 in alateral direction 11 b) between adjacent extensions 36 at a particularlocation along a slit 40 somewhere between the mouth and root thereof,the force urging the slit 40 closed at that particular location may bedecreased. Conversely, by strategically decreasing a gap betweenadjacent extensions 36 at a particular location along a slit 40, theforce urging the slit 40 closed at that particular location may beincreased.

Thus, the relative shape of a base 14, cover 16, or other substrate, therelative shape of one or more extensions 36, and/or the relative shapeof an insert 18 may be selected to provide a desired pressure profile 56within a slit 40. For example, controlling the relative shape of a base14, cover 16, or other substrate, the relative shape of one or moreextensions 36, and/or the relative shape of an insert 18 may be used toproduce: (1) a first pressure profile 56 a where maximum pressure isapplied at the mouth of the slit 40 and minimum pressure is applied atthe root or bottom of the slit 40; (2) a second pressure profile 56 bwherein the pressure applied is substantially uniform at all locationsalong the depth of the slit 40; (3) a third pressure profile 56 c wherethe pressure is relatively low at the mouth and bottom of the slit 40and at a maximum somewhere therebetween (e.g., at about one third of theway down into the slit 40); and (4) a fourth pressure profile 56 d whereminimum pressure is applied at the mouth of the slit 40 and maximumpressure is applied at the root or bottom of the slit 40; or the like.

Referring to FIGS. 11-14, boxes 12, inserts 18, extensions 36, apertures38, and the like in accordance with the present invention may have anysuitable size, shape, or configuration. Accordingly, systems 10 inaccordance with the present invention may be adapted to various needs,situations, or applications. For example, in selected embodiments, a box12 may contain multiple inserts 18. One or more of those inserts 18 maybe held, after install, in a compressed configuration. To accommodatemultiple inserts 18, one or more extensions 36 may comprise walls 48that are relatively short in length.

For example, in the illustrated embodiment, the extensions 36 (e.g.,walls 48), apertures 38, and slits 40 may be aligned with or extend inthe lateral direction 11 b. The extensions 36 (e.g., walls 48),apertures 38, and slits 40 may be relatively short such that noextension 36 extends all the way across a panel 20, 24 or othersubstrate in the lateral direction 11 b.

In certain embodiments, the multiple relatively short extensions 36 maybe arranged in a two-dimensional array having rows extending laterally11 b and columns 58 extending longitudinally 11 a. In such embodiments,different inserts 18 may be applied to different columns 58. That is, afirst insert 18 a may be applied to (and held in a compressedconfiguration by) a first column 58 a, a second insert 18 b may beapplied to (and held in a compressed configuration by) a second column58 b, and so forth. Thus, structures and methods in accordance with thepresent invention may be applied to or embodied within a variety ofsituations.

Referring to FIGS. 15-17, in selected embodiments, an insert 18 maycontrol the compression within a slit 40 without being held in acompressed configuration by an adjacent panel 20, 24 or other substratecomprising one or more extensions 36. In certain embodiments, this maybe accomplished by molding an insert 18 in an arc or curvedconfiguration 60 and then deflecting (e.g., flattening to at least somedegree) the insert 18 in order to consume any undesirable gaps in slits40 formed in the molding process.

For example, an insert 18 may be molded such that its neutral ornon-deflected configuration 60 defines an arc or curve about or withrespect to an axis extending in the longitudinal direction 11 a.Alternatively, an insert 18 may be molded such that its neutral ornon-deflected configuration 60 defines an arc or curve about or withrespect to an axis extending in the lateral direction 11 b.

Various protrusions of a mold cavity (e.g., protrusions for molding oneor more slits 40 into an insert 18) may extend radially from an exterior(e.g., convex side) of such an arc or curve toward an interior (e.g.,concave side) of the arc or curve. That is, the various protrusions mayextend generally perpendicularly with respect to a circumferential arcor direction of the insert 18. Accordingly, when the insert 18 isremoved from the mold and deflected to a flatter configuration 62 foruse (e.g., secured flat within a box 12), the slits 40 may close andfacilitate retention of hooks therewithin.

As shown in FIG. 15, an insert 18 may be molded as a continuous arc.Alternatively, as shown in FIG. 17, an insert 18 may be molded as asegmented arc comprising a plurality of segments 64, each of which issubstantially flat. In certain embodiments, protrusions for formingslits 40 may separate one such flat segment 64 from adjacent flatsegments 64. Accordingly, only those portions 66 of the insert materialleft by the various protrusions may need to flex or bend as the insert18 transitions from its neutral arc or curved configuration 60 to itsflatter configuration 62.

In selected embodiments, one or more protrusions of a mold that form oneor more slits 40 may each be formed to provide a slit 40 with aninterference fit when a corresponding insert 18 is in a flatterconfiguration 62. The shape of such protrusions and the amount ofdeflection necessary to flatten an insert 18 may determine the amount orextent of such interference.

Thus, as an insert 18 transitions from an arc or curved configuration 60to a flatter configuration 62, the opposing sides 42 a, 42 b of a slit40 may first contact one another and then, with continued flattening ofthe insert 18, push against one another. Accordingly, in a flatterconfiguration 62, an interference fit may produce a compressive preloadbetween opposing sides of a slit 40. This pre-load may improve thehook-holding properties of a slit 40 formed in a molding process.

Referring to FIGS. 18 and 19, in selected embodiments, one or moreprotrusions of a mold that form one or more slits 40 may each have apositive draft. That is, they may taper down as they extend into theinsert 18 during molding. For example, one or more protrusions may beformed as wedges. Such wedge-shaped protrusions may produce simple slits40 when the insert 18 is in its flatter configuration 62.

In other embodiments, one or more protrusions of a mold that form one ormore slits 40 may each have a negative draft. That is, they may taperout or wider as they extend into the insert 18 during molding. Suchprotrusions may produce slits 40 with interior cavities 68 that mayremain open when the insert 18 is in its flatter configuration 62 orcreate areas of lower or pressure within a pressure profile 56. Thus,the shape of a molded slit 40 may vary based on desired properties. Theslit 40 may end in a point, a square block, an arc, or the like withdifferent hook-holding properties rendered by different terminal shapes.

Referring to FIGS. 20-22, one or more slits 40 molded in accordance withthe present invention may be continuous. For example, a slit 40 may bemolded to extend continuously across a length or width of an insert 18in the longitudinal or lateral directions 11 a, 11 b, respectively.Alternatively, one or more slits 40 molded in accordance with thepresent invention may be discontinuous. That is, one or more slits 40may be molded to extend some distance that is less than completelyacross a length or width of an insert 18 in the longitudinal or lateraldirections 11 a, 11 b, respectively.

In selected embodiments, the flexibility of the material forming theinsert 18 may be sufficient to accommodate or relieve stressconcentrations that may be produced by flattening or compressingdiscontinuous slits 40. Alternatively, or in addition thereto, thediscontinuities between slits 40 may be evenly distributed (e.g.,staggered) so as to reduce the amount of stress concentrated in anyparticular location.

In certain embodiments, one or more slits 40 may be molded to includeone or more voids 70. For example, a slit 40 may have one or more voids70 distributed therealong. A void 70 may have a depth extendingcompletely or partially through an insert 18 in a transverse direction11 c. In selected embodiments, a void 70 may assist a user in securing afishing hook (e.g., a bare hook or a hook of a lure, artificial fly, orthe like) within a slit 40. For example, a void 70 may enable a user tobetter see where a hook or the like may be secured, as a slit 40 byitself may be more difficult to discern. Additionally, a void 70 mayphysically channel, guide, or direct a hook or the like into a slit 40,thereby making it easier for a user to secure the hook at a retentionsite 42. That is, a user may first introduce a hook into a void 70 andthen progress into a corresponding slit 40 so that the slit 40 can gripthe hook.

In selected embodiments, a void 70 may be shaped and oriented to pointtoward or into a slit 40. For example, a void 70 may have a profile likethat of a tear drop with the point thereof aligned with (e.g., pointedinto) a corresponding slit 40. Other voids 70 may similarly point, buthave other profiles such as triangles, diamonds, or the like. Stillother voids 48 may have a profile like a circle, ellipse, half circle,half ellipse, rectangle, square, or the like.

Referring to FIGS. 23 and 24, in selected embodiments, a system 10 mayinclude various accessories 72. Such accessories 72 may enhance thefunctionality of a system 10. For example, in certain embodiments, asystem 10 may include one or more stabilizers 72. A stabilizer 72 mayhave one end 74 configured to engage (e.g., be inserted within) a slit40. The other end 76 may extend away from a slit 40 to engage, bracket,stabilize, immobilize, etc. one or more pieces of fishing tackle (e.g.,fishing lures or the like) or portions thereof. This may prevent onepiece of fishing tackle from contacting, snagging, scratching, etc. oneor more neighboring pieces of fishing tackle.

Inserts 18 having one or more features disclosed hereinabove may be usedin a wide variety of locations or situations. Inserts 18 may be appliedto any substrate that has sufficient rigidity (e.g., sufficient rigidityto hold an insert 18 or selected portions thereof in a compressedconfiguration, sufficient rigidity to hold an arcuately molded insert 18in a flatter configuration, etc.). As discussed above, in selectedembodiments, the substrate may form part of a fishing tackle box (e.g.,a back panel 20 of a fly box). In other embodiments, a substrate may bepart of some other item such as a boat (e.g., a side wall, a dash board,or some other part of a boat), fishing pack, fishing vest, brim of ahat, or the like.

Alternatively, an insert 18 may be applied to a generally planarsubstrate that is a standalone item (e.g., an item dedicatedsubstantially exclusively to providing sufficient rigidity for theinsert 18). That is, an insert 18 and corresponding substrate may form astandalone item that may be used independent of any fishing tackle box.For example, an insert 18 may be applied to a generally planar surfaceof a substrate formed of polymeric material, wood, metal, compositematerial, or the like (e.g., a surface that has a perimeter thatcorresponds to or closes tracks that of the insert 18).

Inserts 18 having one or more features disclosed hereinabove may be usedto secure a wide variety of items. As discussed above, in selectedembodiments, inserts 18 may have retention sites 34 sized to receive andgrip fishing tackle (e.g., fishing hooks in various forms). In otherembodiments, inserts 18 may have retention sites 34 sized to receive andgrip other items such as jewelry (e.g., rings, earrings, etc.), tools,or any other items for which individualized retention and storage isdesired. Thus, in certain embodiments, an insert 18 may be applied to orincluded within a jewelry box, tool box, or the like.

The present invention may be embodied in other specific forms withoutdeparting from its spirit or essential characteristics. The describedembodiments are to be considered in all respects only as illustrative,and not restrictive. The scope of the invention is, therefore, indicatedby the appended claims, rather than by the foregoing description. Allchanges which come within the meaning and range of equivalency of theclaims are to be embraced within their scope.

What is claimed and desired to be secured by United States LettersPatent is:
 1. A system comprising: a box having an interior andcomprising a planar substrate and extensions extending from the planersubstrate; an elastomeric material overlaying the planar substrate andthe extensions so as to be within the interior of the box; theelastomeric material comprising a slit having a length extending in afirst direction, a width extending in a second direction orthogonal tothe first direction, and a depth extending less than all the way throughthe elastomeric material in a third direction orthogonal to the firstdirection and the second direction; the box, wherein the extensionsapply a compressive load to the elastomeric material across the slit inthe second direction.
 2. The system of claim 1, wherein the elastomericmaterial comprises a first aperture on one side of the slit and a secondaperture on an opposite side of the slit such that a first distanceseparates the first aperture from the second aperture when theelastomeric material is in a neutral, uncompressed condition.
 3. Thesystem of claim 2, wherein the extensions comprise a first extensionshaped to fit within the first aperture and a second extension shaped tofit within the second aperture.
 4. The system of claim 3, wherein asecond distance that is less than the first distance separates the firstextension from the second extension.
 5. The system of claim 4, whereinthe first extension is positioned within the first aperture and thesecond extension is positioned within the second aperture.
 6. The systemof claim 5, wherein: the elastomeric material has a top surface and abottom surface opposite the top surface; and the slit opens at the topsurface and the first and second apertures both open at the bottomsurface.
 7. The system of claim 6, wherein the elastomeric materialcomprises other slits extending parallel to the slit.
 8. The system ofclaim 7, wherein each slit of the other slits comprises: a lengthextending in the first direction, a width extending in the seconddirection, and a depth extending less than all the way through theelastomeric material in the third direction.
 9. The system of claim 8,wherein the extensions apply a compressive load to the elastomericmaterial across each of the other slits in the second direction.
 10. Thesystem of claim 9, wherein the elastomeric material is planar such thatthe top surface is substantially parallel to the bottom surface.
 11. Thesystem of claim 10, wherein the elastomeric material comprises siliconerubber having a Shore hardness in a range from about 40 A to about 60 A.12. The system of claim 11, wherein the silicone rubber has a Shorehardness of about 50 A.